Samples/multimedia/directshow/baseclasses/pullpin.h - deps/third_party/winsdk_samples_v71 - Git at Google

 //------------------------------------------------------------------------------
 // File: PullPin.h
 //
 // Desc: DirectShow base classes - defines CPullPin class.
 //
 // Copyright (c) 1992-2001 Microsoft Corporation.  All rights reserved.
 //------------------------------------------------------------------------------


 #ifndef __PULLPIN_H__
 #define __PULLPIN_H__

 //
 // CPullPin
 //
 // object supporting pulling data from an IAsyncReader interface.
 // Given a start/stop position, calls a pure Receive method with each
 // IMediaSample received.
 //
 // This is essentially for use in a MemInputPin when it finds itself
 // connected to an IAsyncReader pin instead of a pushing pin.
 //

 class CPullPin : public CAMThread
 {
     IAsyncReader*       m_pReader;
     REFERENCE_TIME      m_tStart;
     REFERENCE_TIME      m_tStop;
     REFERENCE_TIME      m_tDuration;
     BOOL                m_bSync;

     enum ThreadMsg {
 	TM_Pause,       // stop pulling and wait for next message
 	TM_Start,       // start pulling
 	TM_Exit,        // stop and exit
     };

     ThreadMsg m_State;

     // override pure thread proc from CAMThread
     DWORD ThreadProc(void);

     // running pull method (check m_bSync)
     void Process(void);

     // clean up any cancelled i/o after a flush
     void CleanupCancelled(void);

     // suspend thread from pulling, eg during seek
     HRESULT PauseThread();

     // start thread pulling - create thread if necy
     HRESULT StartThread();

     // stop and close thread
     HRESULT StopThread();

     // called from ProcessAsync to queue and collect requests
     HRESULT QueueSample(
 		__inout REFERENCE_TIME& tCurrent,
 		REFERENCE_TIME tAlignStop,
 		BOOL bDiscontinuity);

     HRESULT CollectAndDeliver(
 		REFERENCE_TIME tStart,
 		REFERENCE_TIME tStop);

     HRESULT DeliverSample(
 		IMediaSample* pSample,
 		REFERENCE_TIME tStart,
 		REFERENCE_TIME tStop);

 protected:
     IMemAllocator *     m_pAlloc;

 public:
     CPullPin();
     virtual ~CPullPin();

     // returns S_OK if successfully connected to an IAsyncReader interface
     // from this object
     // Optional allocator should be proposed as a preferred allocator if
     // necessary
     // bSync is TRUE if we are to use sync reads instead of the
     // async methods.
     HRESULT Connect(IUnknown* pUnk, IMemAllocator* pAlloc, BOOL bSync);

     // disconnect any connection made in Connect
     HRESULT Disconnect();

     // agree an allocator using RequestAllocator - optional
     // props param specifies your requirements (non-zero fields).
     // returns an error code if fail to match requirements.
     // optional IMemAllocator interface is offered as a preferred allocator
     // but no error occurs if it can't be met.
     virtual HRESULT DecideAllocator(
 		IMemAllocator* pAlloc,
 		__inout_opt ALLOCATOR_PROPERTIES * pProps);

     // set start and stop position. if active, will start immediately at
     // the new position. Default is 0 to duration
     HRESULT Seek(REFERENCE_TIME tStart, REFERENCE_TIME tStop);

     // return the total duration
     HRESULT Duration(__out REFERENCE_TIME* ptDuration);

     // start pulling data
     HRESULT Active(void);

     // stop pulling data
     HRESULT Inactive(void);

     // helper functions
     LONGLONG AlignDown(LONGLONG ll, LONG lAlign) {
 	// aligning downwards is just truncation
 	return ll & ~(lAlign-1);
     };

     LONGLONG AlignUp(LONGLONG ll, LONG lAlign) {
 	// align up: round up to next boundary
 	return (ll + (lAlign -1)) & ~(lAlign -1);
     };

     // GetReader returns the (addrefed) IAsyncReader interface
     // for SyncRead etc
     IAsyncReader* GetReader() {
 	m_pReader->AddRef();
 	return m_pReader;
     };

     // -- pure --

     // override this to handle data arrival
     // return value other than S_OK will stop data
     virtual HRESULT Receive(IMediaSample*) PURE;

     // override this to handle end-of-stream
     virtual HRESULT EndOfStream(void) PURE;

     // called on runtime errors that will have caused pulling
     // to stop
     // these errors are all returned from the upstream filter, who
     // will have already reported any errors to the filtergraph.
     virtual void OnError(HRESULT hr) PURE;

     // flush this pin and all downstream
     virtual HRESULT BeginFlush() PURE;
     virtual HRESULT EndFlush() PURE;

 };

 #endif //__PULLPIN_H__
	//------------------------------------------------------------------------------
	// File: PullPin.h
	//
	// Desc: DirectShow base classes - defines CPullPin class.
	//
	// Copyright (c) 1992-2001 Microsoft Corporation. All rights reserved.
	//------------------------------------------------------------------------------


	#ifndef __PULLPIN_H__
	#define __PULLPIN_H__

	//
	// CPullPin
	//
	// object supporting pulling data from an IAsyncReader interface.
	// Given a start/stop position, calls a pure Receive method with each
	// IMediaSample received.
	//
	// This is essentially for use in a MemInputPin when it finds itself
	// connected to an IAsyncReader pin instead of a pushing pin.
	//

	class CPullPin : public CAMThread
	{
	IAsyncReader* m_pReader;
	REFERENCE_TIME m_tStart;
	REFERENCE_TIME m_tStop;
	REFERENCE_TIME m_tDuration;
	BOOL m_bSync;

	enum ThreadMsg {
	TM_Pause, // stop pulling and wait for next message
	TM_Start, // start pulling
	TM_Exit, // stop and exit
	};

	ThreadMsg m_State;

	// override pure thread proc from CAMThread
	DWORD ThreadProc(void);

	// running pull method (check m_bSync)
	void Process(void);

	// clean up any cancelled i/o after a flush
	void CleanupCancelled(void);

	// suspend thread from pulling, eg during seek
	HRESULT PauseThread();

	// start thread pulling - create thread if necy
	HRESULT StartThread();

	// stop and close thread
	HRESULT StopThread();

	// called from ProcessAsync to queue and collect requests
	HRESULT QueueSample(
	__inout REFERENCE_TIME& tCurrent,
	REFERENCE_TIME tAlignStop,
	BOOL bDiscontinuity);

	HRESULT CollectAndDeliver(
	REFERENCE_TIME tStart,
	REFERENCE_TIME tStop);

	HRESULT DeliverSample(
	IMediaSample* pSample,
	REFERENCE_TIME tStart,
	REFERENCE_TIME tStop);

	protected:
	IMemAllocator * m_pAlloc;

	public:
	CPullPin();
	virtual ~CPullPin();

	// returns S_OK if successfully connected to an IAsyncReader interface
	// from this object
	// Optional allocator should be proposed as a preferred allocator if
	// necessary
	// bSync is TRUE if we are to use sync reads instead of the
	// async methods.
	HRESULT Connect(IUnknown* pUnk, IMemAllocator* pAlloc, BOOL bSync);

	// disconnect any connection made in Connect
	HRESULT Disconnect();

	// agree an allocator using RequestAllocator - optional
	// props param specifies your requirements (non-zero fields).
	// returns an error code if fail to match requirements.
	// optional IMemAllocator interface is offered as a preferred allocator
	// but no error occurs if it can't be met.
	virtual HRESULT DecideAllocator(
	IMemAllocator* pAlloc,
	__inout_opt ALLOCATOR_PROPERTIES * pProps);

	// set start and stop position. if active, will start immediately at
	// the new position. Default is 0 to duration
	HRESULT Seek(REFERENCE_TIME tStart, REFERENCE_TIME tStop);

	// return the total duration
	HRESULT Duration(__out REFERENCE_TIME* ptDuration);

	// start pulling data
	HRESULT Active(void);

	// stop pulling data
	HRESULT Inactive(void);

	// helper functions
	LONGLONG AlignDown(LONGLONG ll, LONG lAlign) {
	// aligning downwards is just truncation
	return ll & ~(lAlign-1);
	};

	LONGLONG AlignUp(LONGLONG ll, LONG lAlign) {
	// align up: round up to next boundary
	return (ll + (lAlign -1)) & ~(lAlign -1);
	};

	// GetReader returns the (addrefed) IAsyncReader interface
	// for SyncRead etc
	IAsyncReader* GetReader() {
	m_pReader->AddRef();
	return m_pReader;
	};

	// -- pure --

	// override this to handle data arrival
	// return value other than S_OK will stop data
	virtual HRESULT Receive(IMediaSample*) PURE;

	// override this to handle end-of-stream
	virtual HRESULT EndOfStream(void) PURE;

	// called on runtime errors that will have caused pulling
	// to stop
	// these errors are all returned from the upstream filter, who
	// will have already reported any errors to the filtergraph.
	virtual void OnError(HRESULT hr) PURE;

	// flush this pin and all downstream
	virtual HRESULT BeginFlush() PURE;
	virtual HRESULT EndFlush() PURE;

	};

	#endif //__PULLPIN_H__